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最近更新于 2021-03-15.

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周鹏

来自明尼苏达大学双城分校的博士后研究员,结合传统遗传学,生物信息学和多组学数据挖掘等方法研究植物在生长发育过程和胁迫条件下的基因表达调控机制,鉴定关键的顺式调控元件用于作物改良。研究兴趣还包括植物基因组学和表观基因组学,比较基因组学和功能基因组学,表达调控网络与机器学习,杂种优势的分子基础等。

教育背景

博士:植物病理学&生物信息学

明尼苏达大学双城分校

圣保罗,美国

2015 - 2009

  • 导师:Nevin D Young

硕士:法医遗传学

西安交通大学

中国,西安

2009 - 2007

  • 导师:李生斌

学士:生物工程&计算机科学

西安交通大学

中国,西安

2007 - 2003

研究经历

博士后

植物与微生物学系

明尼苏达大学双城分校

至今 - 2016

  • 导师:Nathan M Springer

农业信息分析师

应用经济系

明尼苏达超级计算中心

2016 - 2015

研究助理

植物病理系

明尼苏达大学双城分校

2015 - 2009

代表性著作

Applying cis-regulatory codes to predict conserved and variable heat and cold stress response in maize

bioRxiv. 2021. p. 2021.01.15.426829.

N/A

2021

  • Zhou P, Enders TA, Myers ZA, Magnusson E, Crisp PA, Noshay J, et al.

Meta Gene Regulatory Networks in Maize Highlight Functionally Relevant Regulatory Interactions

Plant Cell. 2020, 32: 1377-1396.

N/A

2020

  • Zhou P, Li Z, Magnusson E, Cano FAG, Crisp PA, Noshay J, Grotewold E, HirschC, Briggs SP, Springer NM
  • Impact Factor = 9.618

Dynamic Patterns of Gene Expression Additivity and Regulatory Variation throughout Maize Development

Molecular Plant. 2019, 12: 410-425.

N/A

2019

  • Zhou P, Hirsch CN, Briggs SP, Springer NM
  • Impact Factor = 12.084

Strategies for optimizing BioNano and Dovetail explored through a second reference quality assembly for the legume model

BMC Genomics. 2017, 18: 578.

N/A

2017

  • Moll KM*, Zhou P*, Ramaraj T, Fajardo D, Devitt NP, Sadowsky MJ, et al

Exploring structural variation and gene family architecture with De Novo assemblies of 15 Medicago genomes

BMC Genomics. 2017, 18: 261.

N/A

  • Zhou P, Silverstein KAT, Ramaraj T, Guhlin J, Denny R, Liu J, et al

其他著作

  • Citation = 2138
  • H-index = 16
  • I10-index = 17

Single-parent expression drives dynamic gene expression complementation in maize hybrids

Plant Journal. 2021, 105: 93–107.

N/A

2021

  • Li Z, Zhou P, Della Coletta R, Zhang T, Brohammer AB, H O’Connor C, et al.

The antagonistic MYB paralogs RH1 and RH2 govern anthocyanin leaf markings in Medicago truncatula

New Phytologist. 2021, 229: 3330–3344.

N/A

  • Wang C, Ji W, Liu Y, Zhou P, Meng Y, Zhang P, et al.

Widespread imprinting of transposable elements and young genes in the maize endosperm

bioRxiv. 2020. p. 2020.04.08.032573.

N/A

2020

  • Anderson SN, Zhou P, Higgins K, Brandvain Y, Springer NM

Assessing the regulatory potential of transposable elements using chromatin accessibility profiles of maize transposons

Genetics. 2021, 217: 1–13.

N/A

  • Noshay JM, Marand AP, Anderson SN, Zhou P, Guerra MKM, Lu Z, et al

Stable unmethylated DNA demarcates expressed genes and their cis-regulatory space in plant genomes

Proc Natl Acad Sci U S A.. 2020, 117: 23991–24000.

N/A

  • Crisp PA, Marand AP, Noshay JM, Zhou P, Lu Z, Schmitz RJ, et al.

Variation and Inheritance of Small RNAs in Maize Inbreds and F1 Hybrids

Plant Physiol. 2020, 182: 318-331.

N/A

  • Crisp PA, Hammond R, Zhou P, Vaillancourt B, Lipzen A, Daum C, et al

Monitoring the interplay between transposable element families and DNA methylation in maize

PLoS Genet. 2019, 15: e1008291.

N/A

2019

  • Noshay JM, Anderson SN, Zhou P, Ji L, Ricci W, Lu Z, et al

Transposable elements contribute to dynamic genome content in maize

Plant Journal. 2019, 100: 1052-1065.

N/A

  • Anderson SN, Stitzer MC, Brohammer AB, Zhou P, Noshay JM, O’Connor CH, et al

Hybrid assembly with long and short reads improves discovery of gene family expansions

BMC Genomics. 2017, 18: 541.

N/A

2017

  • Miller JR, Zhou P, Mudge J, Gurtowski J, Lee H, Ramaraj T, et al

Exploring structural variants in environmentally sensitive gene families

Curr Opin Plant Biol. 2016, 30: 19–24.

N/A

2016

  • Young ND, Zhou P, Silverstein KA

Genomic signature of adaptation to climate in Medicago truncatula

Genetics. 2014, 196: 1263–1275.

N/A

2014

  • Yoder JB, Stanton-Geddes J, Zhou P, Briskine R, Young ND, Tiffin P

Selection, genome-wide fitness effects and evolutionary rates in the model legume Medicago truncatula

Molecular Ecology. 2011, 108: E864-70.

N/A

2013

  • Paape T, Bataillon T, Zhou P, J Y Kono T, Briskine R, Young ND, et al

Detecting small plant peptides using SPADA (Small Peptide Alignment Discovery Application)

BMC Bioinformatics. 2013, 14: 335.

N/A

  • Zhou P, Silverstein KA, Gao L, Walton JD, Nallu S, Guhlin J, et al

Fine-scale population recombination rates, hotspots, and correlates of recombination in the Medicago truncatula genome)

Genome Biol Evol. 2012, 4: 726–737.

N/A

2012

  • Paape T, Zhou P, Branca A, Briskine R, Young N, Tiffin P

The Medicago genome provides insight into the evolution of rhizobial symbioses

Nature. 2011, 480: 520-524.

N/A

2011

  • Young ND, Debellé F, Oldroyd GED, … , Zhou P, …, et al
  • ESI Highly Cited Paper

Whole-genome nucleotide diversity, recombination, and linkage disequilibrium in the model legume Medicago truncatula

Proc Natl Acad Sci U S A. 2013, 22: 3525–3538.

N/A

  • Branca A, Paape TD, Zhou P, Briskine R, Farmer AD, Mudge J, et al

职业经历

杂志审稿人

N/A

N/A

  • Plant Biotechnology Journal
  • Plant Science
  • The Plant Genome
  • Plant Direct
  • Crop Science

大会经历

Meta gene regulatory networks in maize refine functionally relevant regulatory interactions

Plant and Animal Genome XXVIII Conference

圣地亚哥

2020

Exploring Functional Transcriptomics using Gene Regulatory Networks in Maize.

61st Annual Maize Genetics Conference

圣路易斯

2019

Documenting the Manifestations of Heterosis in Co-expression Networks for Maize

Plant and Animal Genome XXVI Conference

圣地亚哥

2018

The Medicago Pan-Genome Reveals Large-scale Variation

Plant and Animal Genome XXII Conference

圣地亚哥

2014

Detecting secreted peptides in plants using SPADA (Secreted Peptide Alignment Discovery Algorithm)

Plant and Animal Genome XXI Conference

圣地亚哥

2013

Population-Scale Deep Sequencing Reveals Extensive Structural Variation in Medicago species

Minnesota Supercomputing Institute Research Exhibition

明尼阿波利斯

2011

Genome Distribution and Population Genetics of Nodule-Specific Cysteine-Rich (NCR) Peptides in Medicago

Plant and Animal Genome XIX Conference

圣地亚哥

A Medicago truncatula Hapmap as a Platform for Exploring the Genetics of Symbiosis

Plant and Animal Genome XVIII Conference

圣地亚哥

2010

应邀报告

Co-expression based Gene Regulatory Networks Predict Functional Interactions in Maize

N/A

中国农业大学,北京

2019

Transcriptome Dynamics in Maize

N/A

华中农业大学,武汉

Toward a Medicago Pan-genome: Assembling and Comparing Multiple Genomes

Medicago truncatula Workshop

Noble Research Institute, Ardmore

2016

Assembling and Comparing Multiple High-Quality Medicago Genomes

N/A

中国农业科学院,北京